The present disclosure relates to methods and systems for assessing the quality of a meat product. In certain embodiments, the present disclosure provides a method of assessing quality of a meat product, the method comprising receiving data representative of light emitted from the meat product upon application of incident light to the meat product, analysing the data to determine one or more parameters indicative of quality of the meat product, and assessing the quality of the meat product on the basis of the one or more parameters.

Disclosed is a fluorescence image analyzer for measuring and analyzing a sample that includes a plurality of cells in which target portions are labeled with fluorescent dyes, and the fluorescence image analyzer includes a light source configured to apply light to the sample; an imaging unit configured to take a fluorescence image of each of the cells by which fluorescence is generated by applying the light; a processing unit configured to process the fluorescence image having been taken; and a display unit. The processing unit obtains a bright point pattern of fluorescence in the fluorescence image, causes the display unit to display a plurality of positive patterns that are previously associated with at least one of a measurement item or a labeling reagent, and causes the display unit to display information of at least one of the number of abnormal cells included in the sample, a proportion of the number of the abnormal cells, the number of normal cells included in the sample, and a proportion of the normal cells, based on the bright point pattern having been obtained and the plurality of positive patterns.

Apparatus (1000) and method for automatically detecting odorant substances based on use of nematodes that includes a mechanical selection unit (100) configured to select nematodes in adult stage from an initial nematode population obtaining an intermediate nematode population, a nematode optical selection unit (200) configured to select from the intermediate population a final population of nematodes in adult stage and to select nematodes in young adult stage from nematodes in egg producing adult stage to be sent to a measurement unit (300) configured to detect the response of nematodes of the final population to a stimulus of an odorant substance, the mechanical selection unit (100) being connected to the optical selection unit (200) by a connection channel with an at least three way branch and the optical selection unit (200) being connected to the measurement unit (300) by a loading microchannel.

High-throughput methods and systems for using morphological and/or autofluorescence signatures of cells to characterize unknown cell/tissue types within a forensic sample are provided. Machine learning algorithms are used to correlate morphological and/or autofluorescence signatures to characteristics such as cell type.

A device for monitoring at least one parameter of a fluid specimen obtained from a patient. The device has a fluid conduit holder comprising a clamp configured to position a fluid conduit, which holds the fluid specimen obtained from the patient, in a position for optical analysis, and an optical analyzer having a light source and a light detector. The optical analyzer is configured to expose the fluid specimen contained within the fluid conduit to an illuminant and measure light received at the detector. The device has an optical alignment mechanism mechanically coupling the light source, the clamp, and the light detector together, and configured to align at least the light detector with the fluid conduit at the position for optical analysis.

A method of choosing which undesired cell to destroy in a multi-cell fluorescent event includes detecting fluorescence of cells, converting photons detected in the fluorescence into an analog voltage output signal, and identifying at least two discernable peaks associated with the cells. By looking solely at properties measured within the multi-cell fluorescent event, a decision of which cell to target for elimination can be made. Using this method with large population sizes can result in an effective sex skewed product. The sex skewed product can, for example, be formed from bull semen which is then later used to inseminate cows which results in an increased likelihood of giving birth to female cattle.

The present invention relates to a method for measuring characteristics of particles in solution and to a device for performing the same, wherein said method comprises the steps of providing a vessel comprising a sample of said particles in solution, wherein the sample has preferably a volume between 0.1 μL and 15 μL, providing a monochromatic light source and a light detector, transmitting light from the monochromatic light source to the vessel comprising the sample, detecting light emitted from the vessel with the light detector, and determining characteristics of said particles in solution comprised in the sample based on a dynamic light scattering (DLS) measurement.

An apparatus for detecting fine dust and microorganisms includes: a sample chamber body including a sample chamber, a light-incidence port through which incident light is incident, and a first light exit port and a second light exit port for emitting the incident light irradiated to the measurement sample; a light-transmitting unit; a first light-receiving unit which separately transmits, via a first path and a second path, exiting light emitted from the first light exit port, detects scattering light from the exiting light transmitted via the first path, and detects fluorescence light of the exiting light transmitted via the second path; a diffused reflection reduction unit provided between the first light exit port and the first light-receiving unit; and a second light-receiving unit which condenses in a Mie-scattering manner and transmits exiting light emitted from the second light exit port and detects fluorescence light of the exiting light.

The present invention provides compositions and methods for imaging tumor resections.

The invention relates to a method and a device for optically exciting a plurality of analytes (12) in an array of reaction vessels (14) and for sensing fluorescent light from the analytes (12), wherein excitation light from an excitation light source (38) is supplied to the analytes (12) and wherein fluorescent light from the analytes (12) is simultaneously supplied to a fluorescent detector (34), wherein a plurality of beams (30) of the excitation light is directed into the reaction vessels (14) below the cover (28) through an array of holes (26) in a cover (28) arranged above the array of reaction vessels (14) and a plurality of beams (32) of the fluorescent light from the reaction vessels (14) reaches the fluorescent detector (34). According to the invention it is suggested that the main beams (76) of the plurality of beams (30) of the excitation light diverge within and below the holes (26) into the reaction vessels (14) and/or that the main beams (78) of the plurality of beams (32) of the fluorescent light converge within and above the holes (26) toward the fluorescent detector (34).